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引用次数: 140
摘要
本文提出了一种基于迭代优化的弱监督连续手语识别对齐网络。我们的框架由两个模块组成:用于特征学习的3D卷积残差网络(3D- resnet)和用于序列建模的带有连接时间分类(CTC)的编码器-解码器网络。以上两个模块以另一种方式进行了优化。在编解码器序列学习网络中,包含两个解码器,即LSTM解码器和CTC解码器。两个解码器通过最大似然准则和软动态时间翘曲(soft- Dynamic Time warp, dtw)对齐约束进行联合训练。翘曲路径表示输入视频剪辑和符号词之间可能的对齐,用于微调3D-ResNet作为具有分类损失的训练标签。经过微调后,提取改进后的特征,用于下次迭代优化编解码器序列学习网络。在RWTH-PHOENIX-Weather和CSL两个大规模连续手语识别基准上对该算法进行了评估。实验结果证明了该方法的有效性。
Iterative Alignment Network for Continuous Sign Language Recognition
In this paper, we propose an alignment network with iterative optimization for weakly supervised continuous sign language recognition. Our framework consists of two modules: a 3D convolutional residual network (3D-ResNet) for feature learning and an encoder-decoder network with connectionist temporal classification (CTC) for sequence modelling. The above two modules are optimized in an alternate way. In the encoder-decoder sequence learning network, two decoders are included, i.e., LSTM decoder and CTC decoder. Both decoders are jointly trained by maximum likelihood criterion with a soft Dynamic Time Warping (soft-DTW) alignment constraint. The warping path, which indicates the possible alignment between input video clips and sign words, is used to fine-tune the 3D-ResNet as training labels with classification loss. After fine-tuning, the improved features are extracted for optimization of encoder-decoder sequence learning network in next iteration. The proposed algorithm is evaluated on two large scale continuous sign language recognition benchmarks, i.e., RWTH-PHOENIX-Weather and CSL. Experimental results demonstrate the effectiveness of our proposed method.
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